DE3518913A1 - CLOCKED DC CONVERTER - Google Patents

Description

Philips Patentverwaltung GmbH PHD 85327

* οΖ May 21, 1985

Clocked DC voltage converter

The invention relates to a clocked DC voltage converter with a transformer to its primary inductance the contact path of a controllable switch is connected in series.

Such a DC voltage converter is, for example, from the European patent application with the publication number 0038336 known. It is also known from the aforementioned patent application that because of the winding capacities of the transformer when it is switched on and off of the controllable switch, which is embodied by a bipolar switching transistor, resonance oscillations occur that lead to current and voltage peaks across the collector-emitter path of the transistor and so on Generate losses in the switching transistor. The consequence of this is that the switching transistor for high instantaneous powers must be designed, the DC-DC converter is thus more expensive and at the same time its efficiency is considerable can be worsened.

According to the cited patent application, the current peaks are suppressed by the switching transistor in that a control unit monitors the resonance vibrations and the pulse width control for the switching transistor influenced in such a way that, in order to minimize the power loss, e.g. the switch-on time of the switching transistor is shifted slightly.

The control unit, not described in more detail in the patent application mentioned, is, however, a technically complex one Facility; it must have a zero crossing

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Detector included, a counter for counting the zero crossings, as well as a timer, which after a predetermined Number of zero crossings and a predetermined delay time emits a pulse.

The invention is based on the object of a pulsed DC voltage converter of the type mentioned at the beginning Kind of reducing the current peaks over the contact path of the controllable switch with simple means.

This object is achieved in that in the primary inductance and the contact path of the switch formed direct current path a choke whose core material through the current when the switch is switched on is brought into magnetic saturation and held in it.

A DC / DC converter constructed according to the teaching of the invention has the advantage that its input current only changes when the switch is switched on will; the other properties of the converter remain unchanged. Is the resistance of the contact path of the Switch ni._ht linear - that is the rule - so improved The efficiency of the DC voltage converter is also increased by the choke according to the invention.

Advantageous refinements of the invention are specified in the subclaims.

An exemplary embodiment of the invention is intended to be based on the figures are explained in more detail.

Fig. 1 shows the basic circuit diagram of a DC voltage converter according to the invention,
Fig. 2 shows current-time diagrams of switch currents and

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3 shows the inductance of a choke according to the invention as a function of the choke current.

In a flyback converter according to FIG. 1, an input voltage UE is converted into a regulated output voltage UA. The transformer Ü is used for electrical isolation and voltage transformation when between input and There are significant differences in output voltage.

The primary side of the converter contains a series circuit made up of the primary inductance LP of the transformer Ü the choke DR according to the invention and from the drain-source path of a field effect transistor T. The inputs and Turn-off times of the transistor T are controlled by a pulse width controller IBS, which is connected to the gate G. of the transistor T is connected. As a control variable, the IBS unit is subdivided by a voltage divider R1, R2 Output voltage supplied. Additional means of electrical isolation between the primary and secondary side of the converter are included in the IBS unit.

In addition to the voltage divider Rl, R2, the secondary side of the converter contains the secondary inductance LS of the transformer Ü, a diode DD acting as a switch and an output capacitance CA.

The winding capacitance CL of the transformer u and, which is translated to its primary side, is shown in dotted lines the capacitance CT between the drain D and the source S of the transistor T. In a flyback converter according to FIG typical values for the capacitance CL at a few nF and for the capacitance CT at a few pF.

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If the input current I is switched on by the transistor T, then, at the time of switch-on, the capacitances CL and CT shown in dotted lines act like short circuits and without the choke DR lead to high current peaks, above all high momentary power losses cause in transistor T and thus endanger it.

In FIG. 2 a, the measured drain current ID of the transistor T is for an arrangement according to FIG. 1 without the choke DR plotted as a function of time. During the blocking phase of the transistor T, the current ID is zero, during the switch-on phase if it rises abruptly to values of around 4 to 8 A, it falls after the capacitors CL have been charged and CT down to around 150 to 250 mA and then grows linearly with time to values of 1 to 2 A.

FIG. 2 b shows the same processes with the choke DR according to the invention. The inrush current peaks are present now in the order of magnitude of the maximum operating currents.

During the switch-on phase of the transistor T decreases However, the current does not fall below a limit IS of approximately 150 to 250 mA. Is, as indicated according to the invention, the core material If the choke is chosen so that the limit current IS leads to magnetic saturation, the inductance decreases L the throttle after the switch-on point practically down to the value zero - see. Fig. 3 - and influences the further course of the input current during the switch-on phase not.

If a toroidal choke is used, the electromagnetic radiation of the choke reduced to a minimum.

Should after switching off the input current I through the transistor T, the energy stored in the choke DR

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are converted into heat in a controlled manner, the choke DL is parallel to a rectifier circuit GL switch, which in the simplest case consists of a diode. The polarity of the diode is such that it interferes with the choke DR does not short-circuit when transistor T is conductive. If the forward resistance of the diode is not high enough to generate a To ensure sufficiently rapid demagnetization of the choke DR, the diode is an ohmic resistor switch in series. A capacitor, connected in parallel to this resistor, ensures fast intermediate storage the throttle energy before it is converted into heat.

Claims (6)

Philips Patentverwaltung GmbH PHD 85327 May 21, 1985 claims 1. Switched DC / DC converter with a transformer, the contact path to its primary inductance a controllable switch is connected in series, characterized in that that in the direct current path formed by the primary inductance (LP) and the contact path of the switch (T) there is a choke (DR) whose core material is brought into magnetic saturation and held in it by the current when the switch (T) is switched on.
10 2. Clocked DC voltage converter according to claim 1, characterized characterized in that the throttle (DR) is a toroidal core throttle. 3. Pulsed DC voltage converter according to claim 1 or 2, characterized in that the throttle (DR) a Rectifier circuit (GL) is connected in parallel. 4. Clocked DC voltage converter according to claim 3, characterized in that the rectifier circuit consists of a diode. 5. Clocked DC voltage converter according to claim 3, characterized characterized in that the rectifier circuit consists of the series connection of a diode with a resistor consists. 6. Clocked DC voltage converter according to claim 5, characterized in that the resistor has a capacitance is connected in parallel. -7-